Protein mass spectrometry in the drug discovery process /

Tjernberg, Agneta,

January 2005

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2005. / Härtill 5 uppsatser.

Forensic and proteomic applications of thermal desorption ion mobility spectrometry and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry /

Ochoa, Mariela L.

January 2005

Thesis (Ph.D.)--Ohio University, March, 2005. / Includes bibliographical references (p. 163-176)

Forensic and proteomic applications of thermal desorption ion mobility spectrometry and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry

Ochoa, Mariela L.

January 2005

Thesis (Ph.D.)--Ohio University, March, 2005. / Title from PDF t.p. Includes bibliographical references (p. 163-176)

MATRIX-ASSISTED LASER DESORPTION/IONIZATION TIME-OF-FLIGHT MASS SPECTROMETRY OF BACTERIAL RIBOSOMAL PROTEINS AND RIBOSOMES

SUH, MOO-JIN

27 May 2005

No description available.

Nonpolar Matrices for Matrix Assisted Laser Desportion Ionization – Time of Flight – Mass Spectrometry

Robins, Chad LaJuan

13 July 2005

No description available.

Chemistry, Analytical

MALDI

Nonpolar Matrices

Charge-Transfer Ionization

Crude Oil

Mass Spectrometry

Optimisation of intact cell MALDI method for fingerprinting of methicillin-resistant Staphylococcus aureus

Jackson, K.A., Edwards-Jones, V., Sutton, Chris W., Fox, A.J.

January 2005

No / The use of matrix-assisted laser desorption/ionisation time-of-flight (MALDI-TOF) mass spectrometry on intact cell microorganisms, Intact Cell MALDI (ICM), has been shown by numerous workers to yield effective species level identification. Early work highlighted the significant effect that variation in culture media, incubation conditions and length of incubation had on the spectra produced. Therefore, in order to achieve reliable and reproducible species level identification and sub-typing of microorganisms from ICM fingerprints, it has been essential to develop standardised methods. For methicillin-resistant Staphylococcus aureus (MRSA), a major nosocomial pathogen, we have developed such a standardised method. In this paper we present the experimental parameters, namely, the incubation period, the number of passages required from lyophilised or stored isolates, the method of deposition of the bacterial cells, the concentration of matrix solution, the drying time of bacterial cells prior to the addition of the matrix solution, the time between preparation of the bacterial/matrix sample and analysis and the MALDI pulsed extraction setting, which were considered during the development of defined methods.

Staphylococcus aureus

Bacteria

Micrococcales

Micrococcaceae

Antibiotic

Antibacterial agent

Fingerprint method

Resistance

Meticillin

Avaliação da metodologia de espectrometria de massas MALDI-TOF (VITEK MS®) para identificação de espécies de Aspergillus de importância médica / Evaluation of the MALDI-TOF mass spectrometry (VITEK MS®) methodology for the identification of clinically relevant Aspergillus

Antunes, Fernanda Marques Americo

29 March 2019

A especiação de isolados clínicos de Aspergillus ganhou relevância nos últimos anos devido à descrição de espécies crípticas resistentes aos derivados azólicos. A identificação morfológica convencional não é capaz de discriminar as espécies de Aspergillus e o sequenciamento de DNA é uma técnica pouco adaptada a laboratórios clínicos. A espectrometria de massas por ionização/dessorção a laser auxiliada por matriz tempo-devoo (EM MALDI-TOF) é uma metodologia emergente que vem sendo explorada com intuito de fornecer identificação rápida e acurada de microrganismos, incluindo os fungos filamentosos de importância clínica. Entretanto, há poucos estudos avaliando a plataforma VITEK MS® para a identificação de espécies de Aspergillus. O presente estudo teve como objetivo fornecer dados adicionais sobre a performance dos sistemas do VITEK MS® e suas bibliotecas de espectros de referências (ER) In Vitro Diagnostics (IVD) e Research Use Only (RUO) para identificar as espécies de Aspergillus de relevância clínica. Uma biblioteca de ER in-house também foi construída e avaliada. Um total de 106 organismos foram avaliados por EM, incluindo 47 cepas provenientes das coleções de fungos do Westerdijk Fungal Biodiversity Institute (Holanda) e do LEMIUNIFESP, seis isolados ambientais (IMT-USP) e 53 isolados cínicos do HC-FMUSP. Foram utilizados dois protocolos de extração proteica, um recomendado pelo fabricante e outro empregando meio de cultura líquido para os isolados/cepas com baixa esporulação. Trinta e cinco organismos foram selecionadas para construir os ERs, e os 71 restantes foram usados para avaliação de desempenho das bibliotecas IVD, RUO e RUO+in-house. Entre os 71 organismos analisados, 91,5%, 84,5% e 100% tiveram identificação correta de gênero pelos bibliotecas IVD, RUO e RUO+in-house, respectivamente. Enquanto para identificação de espécie, as bibliotecas IVD, RUO e RUO+in-house mostraram 83,1%, 77,4% e 90,1% de identificações de espécie, respectivamente. Para as 16 espécies crípticas de Aspergillus analisadas, a identificação foi correta em 31,2%, 18,7% e 62,5%, pelos sistemas IVD, RUO e RUO+in-house, respectivamente. Entre as espécies crípticas resistentes aos derivados azólicos, o sistema IVD forneceu identificação correta para as espécies Aspergillus lentulus, Aspergillus calidoustus e Aspergillus sydowii. Entretanto, Aspergillus fumigatiaffinis e Neosartorya pseudofischeri foram erroneamente identificadas como Aspergillus fumigatus pelo sistema IVD. A biblioteca in-house demonstrou melhor performance, mas espécies filogeneticamente próximas como A. fumigatiaffinis e A. lentulus tiveram identificações cruzadas. Concluímos que o VITEK® MS demonstrou boa performance para a identificação das espécies de Aspergillus, porém para algumas espécies crípticas, há necessidade de melhoria das bibliotecas de espectro de referência comercializadas. Algumas espécies crípticas filogeneticamente relacionadas apresentaram espectros similares e são de difícil diferenciação por EM MALDI, mesmo com a construção de uma biblioteca de ER in-house com vários representantes de cada espécie / Aspergillus spp. identification has become more relevant in clinical practice since azoleresistant cryptic species have emerged in the last years. Conventional morphologic identification is not able to discriminate Aspergillus species and DNA sequencing is not feasible for clinical laboratories. Matrix-assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometry (MS) is an emergent technology that has been explored to provide fast and accurate identification of microorganisms, including clinically relevant molds. However, only a few studies have explored the platform VITEK MS® for the identification of Aspergillus species. The present study aimed to provide additional data regarding the performance of the In Vitro Diagnostics (IVD) and Research Use Only (RUO) systems for the identification of Aspergillus species, including azoleresistant ones, and also to construct and to evaluate an in-house reference spectrum library. A total of 106 organisms were evaluated by MS, including 47 Aspergillus strains (Westerdijk Fungal Biodiversity Institute and LEMI-UNIFESP collections), six environmental (IMT-USP) and 53 clinical isolates (HC-FMUSP). Two protein extraction protocols were used, one recommended by the manufacturer and another with liquid broth for the organisms with poor sporulation. Thirty-five organisms were selected to construct the in-house reference spectrum library and the remaining 71 were used for the performance evaluation. Correct genus identification was provided in 91.5%, 84.5% and 100% by the IVD, RUO, and RUO+in-house reference spectrum libraries, respectively. Correct species identification was provided in 83.1%, 77.4% and 90.1% by the IVD, RUO, and RUO+in-house reference spectrum libraries, respectively. Among the 16 Aspergillus cryptic species, correct identification was provided in 31.5%, 18.7% and 62.5% by the IVD, RUO, and RUO+in-house reference spectrum libraries, respectively. Among the azole-resistant cryptic species, the IVD system provided correct identification for Aspergillus lentulus, Aspergillus calidoustus and Aspergillus sydowii. However, Aspergillus fumigatiaffinis and Neosartorya pseudofischeri were misidentified as Aspergillus fumigatus by the IVD system. The in-house library had better performance for the identification of Aspergillus cryptic species, but closely related taxa may be difficult to have correct differentiation by MALDI-TOF MS. In conclusion, VITEK® MS showed good performance for the identification of Aspergillus species and some azoleresistant species. However, a more robust reference spectrum library including more representatives of azole-resistant cryptic species may be necessary to achieve better identification performance of closely related taxa

Antifungal resistance

Aspergillus

Aspergillus

Base de dados

Cryptic species

Database

Espécies crípticas

Resistência a antifúngicos

Padronização da espectrometria de massa MALDI-TOF para identificação de cepas de Trichosporon spp. de importância médica / Standardization of MALDI-TOF mass spectrometry for identification of Trichosporon spp of medical relevance

Almeida Júnior, João Nobrega de

01 April 2014

O gênero Trichosporon é composto por leveduras artrosporadas do Filo Basidiomycota e é conhecido agente de infecção fúngica invasiva (IFI) em pacientes imunodeprimidos ou com outros fatores de risco. Em pacientes onco-hematológicos é a principal levedura responsável por IFI depois do gênero Candida. Entre as espécies responsáveis por infecções no homem encontram-se: T. asahii, T. inkin, T. mucoides, T. dermatis, T. jirovecii, T. ovoides, T. cutaneum, T. montevideense, T. domesticum, T. asteroides, T. coremiiforme, T. faecale, T. dohaense, T. lactis, T. japonicum. A tecnologia de identificação de fungos por espectrometria de massa (SM) MALDI-TOF ainda carece de padronização para identificação de fungos do gênero Trichosporon, mas a literatura mostra resultados encorajadores. O objetivo deste estudo é padronizar a técnica de espectrometria de massa MALDI-TOF para a identificação das espécies do gênero Trichosporon de importância médica. O estudo foi realizado em cooperação entre a Divisão de Laboratório Central do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo (DLC, HC-FMUSP), Instituto de Medicina Tropical da USP (IMT-USP), Instituto Adolfo Lutz (IAL) e Laboratoire de Parasitologie-Mycologie do Hospital Saint Antoine de Paris, vinculado ao grupo de pesquisa INSERM/UPMC UMR S945 \"Immunité et Infection\" Faculté de Medecine et Université Pierre et Marie Curie de Paris. Noventa e três cepas/isolados foram analisado(a)s, sendo dezenove cepas de referência adquiridas junto à coleção holandesa Centraalbureau Schimmelcultures (CBS), 19 isolados do HC-FMUSP e IAL, e 55 isolados de diferentes hospitais franceses. A identificação molecular foi realizada através do sequenciamento da região IGS1 do rDNA e foi considerada como método de referência. O protocolo de extração de proteínas foi estabelecido através da comparação do desempenho de três metodologias (Bruker®, Cassagne et al., Sendid et al.). Os espectros de massa foram obtidos no laboratório de bacteriologia do Hospital Saint Antoine de Paris através do aparelho Microflex LT®. A interpretação dos resultados qualitativos e quantitativos (logscore) foi realizada através do Software Biotyper 3.0®. O desempenho de identificação do banco de espectros de referência Biotyper 3.0® foi comparado a outros cinco bancos criados a partir de espectros de referência (ERs) derivados de 18 cepas de referência CBS, sete isolados clínicos e 11 ERs do banco Biotyper 3.0. O protocolo de extração de proteínas descrito por Sendid et al. foi escolhido como protocolo de referência pois os espectros produzidos tiveram logscore superiores àqueles obtidos através do método do fabricante. O banco de ERs Biotyper 3.0® apresentou 32,3% de identificações corretas das espécies, sendo que o banco de ERs in house (número 5, constituído cepas CBS e isolados clínicos) apresentou 98,5% de identificações de espécies. Espectros de referência do banco de dados Biotyper 3.0® foram submetidos à identificação com a utilização dos ERs criados a partir de cepas CBS e isolados clínicos e foram evidenciados com erros de identificação: T. mucoides (2), T. ovoides (1) e T. cutaneum (2). Após padronização do protocolo de extração e criação de banco de ERs com cepas CBS e isolados clínicos caracterizados pelo sequenciamento da região IGS, a SM por MALDI-TOF apresentou-se como potente uma ferramenta para a identificação de fungos do gênero Trichosporon. O banco de ERs Biotyper 3.0® apresentou um fraco desempenho, relacionado a ERs que foram criados a partir de cepas mal identificadas / Trichosporon spp. are arthrospored yeasts from the Filum Basidiomycota that are known to produce invasive fungal infection (IFI) in patients with immunosupression or other risk factors. After Candida, Trichosporon is the second genus of yeasts responsible for IFI in patients with onco-hematological diseases. The most important species related to human infection are: T. asahii, T. inkin, T. mucoides, T. dermatis, T. jirovecii, T. ovoides, T. cutaneum, T. montevideense, T. domesticum, T. asteroides, T. coremiiforme, T. faecale, T. dohaense, T. lactis, T. japonicum. The technology of mass spectrometry (MS) for identification of Trichosporon species has not yet been standardized. However, preliminary promising results can be found in the literature. The objective of this study is to analyse and validate MS MALDI-TOF for the identification of Trichosporon species of medical relevance. This was a multicentric study with collaboration from the Central Laboratory Section from Clinics Hospital of the Medical School from the University of São Paulo (DLC-HCFMUSP), Tropical Medicine Institute from the University of São Paulo (IMT-USP), Instituto Adolfo Lutz (IAL) and Laboratoire de Parasitologie-Mycologie from the Hospital Saint Antoine of Paris and INSERM/UPMC UMR S945 \"Immunité et Infection\", Faculté de Medecine et Université Pierre et Marie Curie of Paris. Ninety three strains/isolates belonging to sixteen Trichosporon species were analysed. Nineteen were purchased from Centraalbureau Schimmelcultures (CBS) yeast collection, 19 belonged to HC-FMUSP and IAL collections, 55 belonged to different French collections. The reference identification method was the IGS1 rDNA sequencing. A protein extraction protocol was first established after comparing the performance of three different methodologies (Bruker(TM), Cassagne et al., Sendid et al.). The mass spectra were obtained through a Microflex LT(TM) mass spectrometer located at the bacteriology laboratory from Saint Antoine Hospital, Paris. Mass spectra, qualitative and quantitative results were produced through the software Biotyper 3.0(TM). The performance of the original main spectrum (MSP) library was compared to other 5 in house libraries built with the combination of MSPs derived from CBS strains (18), clinical strains (7) or (Bruker Daltonics/BD, Germany/USA) (11). The extraction protocol described by Sendid et al. showed better performance when compared to the manufacturer\'s one and was chosen for the subsequent extractions. Among the 6 different reference spectra databases tested, a specific one composed of 18 reference strains plus 7 clinical isolates (database 5) allowed the correct identification of 66 amongst 67 clinical isolates (98,5%). Biotyper 3.0 library produced only 32,3% of correct identifications. Biotyper\'s MSPs were submitted to cross-identification with MSPs derived from CBS strains and clinical isolates and misidentified original MSPs were identified: T. mucoides (2), T. ovoides (1) e T. cutaneum (2). While until now less widely applied to basidiomycetous fungi, MALDI-TOF appears to be a valuable tool for identifying clinical Trichosporon isolates at the species level. The MSP library Biotyper 3.0 showed a poorer performance which was due to misidentified strains utilized as reference for the MSPs

Micoses/diagnóstico

Molecular typing

Mycosis/diagnosis

Proteômica

Proteomics

Tipagem molecular

Trichosporon spp

Trichosporon spp

Liquid chromatography coupled with electrospray-ionization mass spectrometry and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry method development and applications for the analysis of food and medicinal herbs

Lee, Kim Chung

01 January 2009

No description available.

Analysis

Food

Herbs

High performance liquid chromatography

Medicinal plants

Time-of-flight mass spectrometry

Probing protein-ligand interactions via solution phase hydrogen exchange mass spectrometry

Esswein, Stefan Theo

January 2010

Mass spectrometry is a versatile, sensitive and fast technique with which to probe biophysical properties in biological systems and one of the most important analytical tools in the multidisciplinary field of proteomics. The study of nativestate proteins and their complexes in the gas-phase is well established and direct infusion electrospray ionisation mass spectrometry (DI-ESI-MS) techniques are becoming increasingly popular as a tool for screening and determining quantitative information on protein-protein and protein-ligand interactions. However, complexes retained by ESI-MS are not always representative of those in solution and care must be taken in interpreting purely gas-phase results. This thesis details modification and advancement of solution phase techniques devised by Gross et al. utilising ESI-MS and Fitzgerald et al. applying matrix assisted laser desorption ionisation (MALDI)-MS termed PLIMSTEX (protein-ligand interactions by mass spectrometry, titration and hydrogen-deuterium-exchange)[1] and SUPREX (Stability of unpurified proteins from rates of H/D exchange)[2] to quantify these interactions with regards to high throughput analysis. The first part of this thesis describes the different developmental stages of the devised HPLC-front ends and their optimisation with myoglobin and insulin. The successfully developed HPLC-front end in conjunction with PLIMSTEX and SUPREX and ESI-MS then gets tested with self expressed and purified cyclophilin A(CypA)- cyclosporin A (CsA) system, followed by a test screen with potential CypA binding ligands. Dissociation constants (Kd’s) within one order of magnitude to reported values are determined. In the third part of this thesis the application of the devised ESI-SUPREX methodology has been applied to anterior gradient 2 (AGr2) and the factor H complement control proteins module 19-20 (fH19-20) exhibiting binding potential to a taggedhexapeptide and a synthetic pentasaccharide, respectively, resulting in thermodynamical data for these protein-ligand interactions. For the AGr2 system another dimension of investigation has been added by temperature controlling the devised ESI-SUPREX approach, revealing a phase transition in the protein at higher temperatures. The final part of this thesis describes the application of the ESI-SUPREX methodology to probe folding properties of CypA in the presence of the self expressed and purified E. coli chaperonin groEL. Thereby the denaturing properties of groEL have been emphasised along with the stabilisation of a denatured CypA species.

571.4